CN104549574A - Energy-saving device for feeding regenerated liquid into sodium ion exchanger - Google Patents

Abstract

The invention relates to an energy-saving device for feeding regenerated liquid into a sodium ion exchanger. The energy-saving device comprises a salt pond, a water pumping pipe, a water storage barrel, a deflation valve, a water replenishing pipe and a salt liquid pump, wherein the salt pond is used for storing regenerated liquid; the tail end of the water pumping pipe extends into the salt pond; the head end of the water pumping pipe is communicated with the water storage barrel positioned outside the salt pond; a liquid inlet of the salt liquid pump is connected with the bottom of the water storage barrel; the deflation valve I and the water replenishing pipe are arranged on the water storage barrel; the tail end of the water pumping pipe is positioned above a horizontal line of the salt liquid pump; the water storage barrel and the water pumping pipe are fully filled with water through the water replenishing pipe, and a siphon structure is formed between the salt pond and the salt liquid pump, and the regenerated liquid in the salt pond is conveyed into the sodium ion exchanger by utilizing siphon. Compared with the prior art, the energy-saving device has the advantages that a siphon principle is utilized, so that the regenerated liquid in the salt pond can be directly pumped by the salt liquid pump; because a sea valve is additionally arranged on the water pumping pipe, the water replenishing pipe and the deflation valve are added on the water storage barrel, so that air in the water pumping pipe can be removed, and the salt liquid pump can be used for stably and effectively pumping the regenerated liquid into the sodium ion exchanger.

Description

A kind of energy-saving Na-ion exchanger regenerated liquid access to plant

Technical field

The present invention relates to a kind of feeding device, especially relate to a kind of Na-ion exchanger regenerated liquid access to plant.

Background technology

In water softening system, the effect of Na-ion exchanger is except the calcium ion in anhydrating and magnesium ion.

The mode importing now regenerated liquid in Na-ion exchanger is: after crude salt imports salt pond, through dissolve saturated after, regenerated liquid is formed in salt pond, regenerated liquid in salt pond is pumped in brine drum by submersible pump, by salt liquid pump, the regenerated liquid in brine drum is pumped in Na-ion exchanger again, this mode needs successively to use submersible pump and salt liquid pump to carry, and needs two procedures, adds labor force and working time.

Summary of the invention

Object of the present invention is exactly provide to overcome defect that above-mentioned prior art exists the energy-saving Na-ion exchanger regenerated liquid access to plant that a kind of structure is simple, reduce energy consumption, reduce operation.

Object of the present invention can be achieved through the following technical solutions:

A kind of energy-saving Na-ion exchanger regenerated liquid access to plant, comprise salt pond, drinking-water pipe, water bucket, purging valve, filling pipe and salt liquid pump, described salt pond is used for depositing regenerated liquid, described drinking-water pipe end extend into inside, salt pond, head end is communicated with the water bucket being positioned at outside, salt pond, the fluid inlet of described salt liquid pump is connected to the bottom of water bucket, and described purging valve and filling pipe are all arranged on water bucket, and the end of described drinking-water pipe is positioned at the horizontal top of salt liquid pump; In water bucket and drinking-water pipe, fill water by filling pipe, between salt pond and salt liquid pump, form syphon structure, utilize siphon by the regenerated liquid in salt pond by saline solution pump delivery in Na-ion exchanger.

The end of described drinking-water pipe is provided with filtering screen.

The end of described drinking-water pipe is provided with sea cock and valve, and this sea cock and valve is positioned at filtering screen inside.

Described water bucket is sealing bucket.

Described purging valve and filling pipe are all located at the top of water bucket.

The liquid outlet of described salt liquid pump is communicated with Na-ion exchanger.

Device of the present invention mainly utilizes siphon principle, thus make salt liquid pump directly can extract regenerated liquid in salt pond, because installed sea cock and valve on drinking-water pipe additional, water bucket filling pipe and purging valve have been installed additional, the air in drinking-water pipe can be got rid of, thus make salt liquid pump can stablize the effective regenerated liquid that extracts to send Na-ion exchanger to.

Compared with prior art, the present invention has the following advantages and beneficial effect:

(1) this device simplifies operation, after salt pond poured into by crude salt, through dissolve saturated after, directly by salt liquid pump suction Na-ion exchanger, do not need first the regenerated liquid in salt pond to be released again by saline solution pump delivery with submersible pump, saved the energy, simplified operation.

(2) filling pipe and purging valve are set on water bucket, can ensure there is no air in drinking-water pipe, siphon can be stablized and carry out.

(3) this device use range is wide, under similar Working environment, siphon principle can be utilized to improve.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail.

Embodiment

A kind of energy-saving Na-ion exchanger regenerated liquid access to plant, comprise salt pond 6, drinking-water pipe 3, water bucket 7, purging valve 4, filling pipe 5 and salt liquid pump 8, salt pond 6 is for depositing regenerated liquid, it is inner that drinking-water pipe 3 end extend into salt pond 6, the end of drinking-water pipe 3 is provided with filtering screen 1 and sea cock and valve 2, and it is inner that this sea cock and valve 2 is positioned at filtering screen 1.Head end is communicated with the water bucket 7 being positioned at outside, salt pond 6, and water bucket 7 is sealing bucket.The fluid inlet of salt liquid pump 8 is connected to the bottom of water bucket 7, and the liquid outlet of salt liquid pump 8 is communicated with Na-ion exchanger.Purging valve 4 and filling pipe 5 are all arranged on the top of water bucket 7, and the end of drinking-water pipe 3 is positioned at the horizontal top of salt liquid pump 8.

In water bucket 7 and drinking-water pipe 3, fill water by filling pipe 5, between salt pond 6 and salt liquid pump 8, form syphon structure, utilize siphon to be transported in Na-ion exchanger by salt liquid pump 8 by the regenerated liquid in salt pond 6.

Above-mentioned is can understand and use invention for ease of those skilled in the art to the description of embodiment.Person skilled in the art obviously easily can make various amendment to these embodiments, and General Principle described herein is applied in other embodiments and need not through performing creative labour.Therefore, the invention is not restricted to above-described embodiment, those skilled in the art, according to announcement of the present invention, do not depart from improvement that scope makes and amendment all should within protection scope of the present invention.

Claims (6)

1. an energy-saving Na-ion exchanger regenerated liquid access to plant, it is characterized in that, comprise salt pond (6), drinking-water pipe (3), water bucket (7), purging valve (4), filling pipe (5) and salt liquid pump (8), described salt pond (6) is for depositing regenerated liquid, it is inner that described drinking-water pipe (3) end extend into salt pond (6), head end is communicated with the water bucket (7) being positioned at outside, salt pond (6), the fluid inlet of described salt liquid pump (8) is connected to the bottom of water bucket (7), described purging valve (4) and filling pipe (5) are all arranged on water bucket (7), the end of described drinking-water pipe (3) is positioned at salt liquid pump (8) horizontal top,

In water bucket (7) and drinking-water pipe (3), water is filled by filling pipe (5), between salt pond (6) and salt liquid pump (8), form syphon structure, utilize siphon to be transported in Na-ion exchanger by salt liquid pump (8) by the regenerated liquid in salt pond (6).

2. one according to claim 1 energy-saving Na-ion exchanger regenerated liquid access to plant, is characterized in that, the end of described drinking-water pipe (3) is provided with filtering screen (1).

3. one according to claim 2 energy-saving Na-ion exchanger regenerated liquid access to plant, it is characterized in that, the end of described drinking-water pipe (3) is provided with sea cock and valve (2), and it is inner that this sea cock and valve (2) is positioned at filtering screen (1).

4. one according to claim 1 energy-saving Na-ion exchanger regenerated liquid access to plant, is characterized in that, described water bucket (7) is sealing bucket.

5. one according to claim 1 energy-saving Na-ion exchanger regenerated liquid access to plant, is characterized in that, described purging valve (4) and filling pipe (5) are all located at the top of water bucket (7).

6. one according to claim 1 energy-saving Na-ion exchanger regenerated liquid access to plant, is characterized in that, the liquid outlet of described salt liquid pump (8) is communicated with Na-ion exchanger.